Yiyang Wang scite author profile

Protein ubiquitination is mediated sequentially by ubiquitin activating enzyme E1, ubiquitin conjugating enzyme E2 and ubiquitin ligase E3. Uba1 was thought to be the only E1 until the recent identification of Uba6. To differentiate the biological functions of Uba1 and Uba6, we applied an orthogonal ubiquitin transfer (OUT) technology to profile their ubiquitination targets in mammalian cells. By expressing pairs of an engineered ubiquitin and engineered Uba1 or Uba6 that were generated for exclusive interactions, we identified 697 potential Uba6 targets and 527 potential Uba1 targets with 258 overlaps. Bioinformatics analysis reveals substantial differences in pathways involving Uba1- and Uba6-specific targets. We demonstrate that polyubiquitination and proteasomal degradation of ezrin and CUGBP1 require Uba6, but not Uba1, and that Uba6 is involved in the control of ezrin localization and epithelial morphogenesis. These data suggest that distinctive substrate pools exist for Uba1 and Uba6 that reflect non-redundant biological roles for Uba6.

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Identifying the ubiquitination targets of E6AP by orthogonal ubiquitin transfer

Wang

Liu

Zhou

et al. 2017

Nat Commun

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E3 ubiquitin (UB) ligases are the ending modules of the E1–E2-E3 cascades that transfer UB to cellular proteins and regulate their biological functions. Identifying the substrates of an E3 holds the key to elucidate its role in cell regulation. Here, we construct an orthogonal UB transfer (OUT) cascade to identify the substrates of E6AP, a HECT E3 also known as Ube3a that is implicated in cancer and neurodevelopmental disorders. We use yeast cell surface display to engineer E6AP to exclusively transfer an affinity-tagged UB variant (xUB) to its substrate proteins. Proteomic identification of xUB-conjugated proteins in HEK293 cells affords 130 potential E6AP targets. Among them, we verify that MAPK1, CDK1, CDK4, PRMT5, β-catenin, and UbxD8 are directly ubiquitinated by E6AP in vitro and in the cell. Our work establishes OUT as an efficient platform to profile E3 substrates and reveal the cellular circuits mediated by the E3 enzymes.

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Bacterial Genome Containing Chimeric DNA–RNA Sequences

et al. 2018

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Almost five decades ago Crick, Orgel, and others proposed the RNA world hypothesis. Subsequent studies have raised the possibility that RNA might be able to support both genotype and phenotype, and the function of RNA templates has been studied in terms of evolution, replication, and catalysis. Recently, we engineered strains of E. coli in which a large fraction of 2'-deoxycytidine in the genome is substituted with the modified base 5-hydroxymethyl-2'-deoxycytidine. We now report the generation of mutant strains derived from these engineered bacteria that show significant (∼40-50%) ribonucleotide content in their genome. We have begun to characterize the properties of these chimeric genomes and the corresponding strains to determine the circumstances under which E. coli can incorporate ribonucleotides into its genome and herein report our initial observations.

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Regulation of O-Linked N-Acetyl Glucosamine Transferase (OGT) through E6 Stimulation of the Ubiquitin Ligase Activity of E6AP

Peng

Liu

Jia

et al. 2021

IJMS

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Glycosyltransferase OGT catalyzes the conjugation of O-linked β-D-N-acetylglucosamine (O-GlcNAc) to Ser and Thr residues of the cellular proteins and regulates many key processes in the cell. Here, we report the identification of OGT as a ubiquitination target of HECT-type E3 ubiquitin (UB) ligase E6AP, whose overexpression in HEK293 cells would induce the degradation of OGT. We also found that the expression of E6AP in HeLa cells with the endogenous expression of the E6 protein of the human papillomavirus (HPV) would accelerate OGT degradation by the proteasome and suppress O-GlcNAc modification of OGT substrates in the cell. Overall, our study establishes a new mechanism of OGT regulation by the ubiquitin–proteasome system (UPS) that mediates the crosstalk between protein ubiquitination and O-GlcNAcylation pathways underlying diverse cellular processes.

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Yiyang Wang

Identifying the substrate proteins of U-box E3s E4B and CHIP by orthogonal ubiquitin transfer

Orthogonal ubiquitin transfer identifies ubiquitination substrates under differential control by the two ubiquitin activating enzymes

Identifying the ubiquitination targets of E6AP by orthogonal ubiquitin transfer

Bacterial Genome Containing Chimeric DNA–RNA Sequences

Regulation of O-Linked N-Acetyl Glucosamine Transferase (OGT) through E6 Stimulation of the Ubiquitin Ligase Activity of E6AP

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